Add to ORKGAs the hardware and software complexity grows, it is unlikely for the power management hardware/software to have a full observation of the entire system status. In this paper, we propose a new modeling and optimization technique based on partially observable Markov decision process (POMDP) for robust power management, which can achieve near-optimal power savings, even when only partial system information is available. Three scenarios of partial observations that may occur in an embedded system are discussed and their modeling techniques are presented. The experimental results show that, compared with power management policy derived from traditional Markov decision process model that assumes the system is fully observable, the new power mana...
With the increasing levels of variability and randomness in the characteristics and behavior of manu...
In this paper we show that stochastic learning automata based feedback control switching strategy ca...
We present an approach to deriving stochastic Dynamic Power Management (DPM) strategies that enables...
Abstract-- The goal of a dynamic power management policy is to reduce the power consumption of an el...
Dynamic power management schemes (also called policies) reduce the power consumption of complex elec...
Abstract- This paper addresses the problem of maximizing capacity utilization of the battery power s...
This paper is concerned with the problem of maximizing capacity utilization of the battery power sou...
Dynamic power management schemes (also called policies) reduce the power consumption of complex elec...
The policy optimization problem for dynamic power management has received considerable attention in ...
Dynamic power management (DPM) is a power reduction technique based on dynamically reconfiguring the...
Autonomous control systems will make much ”smarter” used automatic controls of modern power grids, a...
This paper tackles the problem of dynamic power management (DPM) in nanoscale CMOS design technologi...
Dynamic power management is a design methodology aiming at controlling perfor-mance and power levels...
Recent advances in planning techniques for partially observable Markov decision processes have focus...
Dynamic power management (DPM) is a design methodology aimed at reducing power consumption of electr...
With the increasing levels of variability and randomness in the characteristics and behavior of manu...
In this paper we show that stochastic learning automata based feedback control switching strategy ca...
We present an approach to deriving stochastic Dynamic Power Management (DPM) strategies that enables...
Abstract-- The goal of a dynamic power management policy is to reduce the power consumption of an el...
Dynamic power management schemes (also called policies) reduce the power consumption of complex elec...
Abstract- This paper addresses the problem of maximizing capacity utilization of the battery power s...
This paper is concerned with the problem of maximizing capacity utilization of the battery power sou...
Dynamic power management schemes (also called policies) reduce the power consumption of complex elec...
The policy optimization problem for dynamic power management has received considerable attention in ...
Dynamic power management (DPM) is a power reduction technique based on dynamically reconfiguring the...
Autonomous control systems will make much ”smarter” used automatic controls of modern power grids, a...
This paper tackles the problem of dynamic power management (DPM) in nanoscale CMOS design technologi...
Dynamic power management is a design methodology aiming at controlling perfor-mance and power levels...
Recent advances in planning techniques for partially observable Markov decision processes have focus...
Dynamic power management (DPM) is a design methodology aimed at reducing power consumption of electr...
With the increasing levels of variability and randomness in the characteristics and behavior of manu...
In this paper we show that stochastic learning automata based feedback control switching strategy ca...
We present an approach to deriving stochastic Dynamic Power Management (DPM) strategies that enables...